Calcium Channel, Voltage Dependent, T Type, alpha 1I Subunit (CACNA1I) (Middle Region) Peptide
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- Target See all CACNA1I products
- CACNA1I (Calcium Channel, Voltage Dependent, T Type, alpha 1I Subunit (CACNA1I))
- Protein Region
- Middle Region
- Origin
- Human
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Source
- Synthetic
- Application
- Blocking Peptide (BP), Western Blotting (WB)
- Characteristics
- This is a synthetic peptide designed for use in combination with anti-CACNA1I antibody (Catalog #: ARP35319_P050). It may block above mentioned antibody from binding to its target protein in western blot and/or immunohistochecmistry under proper experimental settings. There is no guarantee for its use in other applications.
- Purification
- Purified
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- Application Notes
- Each Investigator should determine their own optimal working dilution for specific applications.
- Restrictions
- For Research Use only
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- Format
- Lyophilized
- Reconstitution
- Add 100 μL of sterile PBS. Final peptide concentration is 1 mg/mL in PBS.
- Concentration
- 1 mg/mL
- Buffer
- Final peptide concentration is 1 mg/mL in PBS.
- Handling Advice
- Avoid repeated freeze-thaw cycles.
- Storage
- -20 °C
- Storage Comment
- For longer periods of storage, store at -20°C. Avoid repeat freeze-thaw cycles.
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- Target
- CACNA1I (Calcium Channel, Voltage Dependent, T Type, alpha 1I Subunit (CACNA1I))
- Synonyms
- CACNA1L Peptide, Ca(V)3.3 Peptide, Cav3.3 Peptide, ca(v)3.3 Peptide, si:ch211-51h13.1 Peptide, Ca(v)3.3 Peptide, calcium voltage-gated channel subunit alpha1 I Peptide, voltage-dependent T-type calcium channel subunit alpha-1I Peptide, calcium channel, voltage-dependent, alpha 1I subunit Peptide, calcium channel, voltage-dependent, T type, alpha 1I subunit Peptide, CACNA1I Peptide, LOC100555412 Peptide, Cacna1i Peptide, cacna1i Peptide
- Background
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Voltage-dependent calcium channels control the rapid entry of Ca(2+) into a variety of cell types and are therefore involved in both electrical and cellular signaling. T-type channels, such as CACNA1I, are activated by small membrane depolarizations and can generate burst firing and pacemaker activity.Voltage-dependent calcium channels control the rapid entry of Ca(2+) into a variety of cell types and are therefore involved in both electrical and cellular signaling. T-type channels, such as CACNA1I, are activated by small membrane depolarizations and can generate burst firing and pacemaker activity.[supplied by OMIM].
Alias Symbols: Cav3.3, KIAA1120, ca(v)3.3
Protein Size: 2188 - Molecular Weight
- 245 kDa
- Gene ID
- 8911
- NCBI Accession
- NM_001003406, NP_001003406
- UniProt
- Q9P0X4
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